# -*- coding: utf-8 -*-
#
# Copyright © Spyder Project Contributors
# Licensed under the terms of the MIT License
# (see spyder/__init__.py for details)

"""Find in files widget"""

# pylint: disable=C0103
# pylint: disable=R0903
# pylint: disable=R0911
# pylint: disable=R0201

# Standard library imports
from __future__ import with_statement, print_function
import fnmatch
import os
import os.path as osp
import re
import sys
import math
import traceback

# Third party imports
from qtpy.compat import getexistingdirectory
from qtpy.QtGui import QAbstractTextDocumentLayout, QTextDocument
from qtpy.QtCore import (QEvent, QMutex, QMutexLocker, QSize, Qt, QThread,
                         Signal, Slot)
from qtpy.QtWidgets import (QApplication, QComboBox, QHBoxLayout, QLabel,
                            QMessageBox, QSizePolicy, QStyle,
                            QStyledItemDelegate, QStyleOptionViewItem,
                            QTreeWidgetItem, QVBoxLayout, QWidget)

# Local imports
from spyder.config.base import _
from spyder.config.main import EXCLUDE_PATTERNS
from spyder.py3compat import to_text_string, PY2
from spyder.utils import icon_manager as ima
from spyder.utils.encoding import is_text_file, to_unicode_from_fs
from spyder.widgets.comboboxes import PatternComboBox
from spyder.widgets.onecolumntree import OneColumnTree
from spyder.utils.misc import regexp_error_msg
from spyder.utils.qthelpers import create_toolbutton, create_waitspinner
from spyder.config.gui import get_font


ON = 'on'
OFF = 'off'

CWD = 0
PROJECT = 1
FILE_PATH = 2
SELECT_OTHER = 4
CLEAR_LIST = 5
EXTERNAL_PATHS = 7

MAX_PATH_LENGTH = 60
MAX_PATH_HISTORY = 15


def truncate_path(text):
    ellipsis = '...'
    part_len = (MAX_PATH_LENGTH - len(ellipsis)) / 2.0
    left_text = text[:int(math.ceil(part_len))]
    right_text = text[-int(math.floor(part_len)):]
    return left_text + ellipsis + right_text


class SearchThread(QThread):
    """Find in files search thread."""
    sig_finished = Signal(bool)
    sig_current_file = Signal(str)
    sig_current_folder = Signal(str)
    sig_file_match = Signal(object)
    sig_line_match = Signal(object, object)
    sig_out_print = Signal(object)

    # Batch power sizes (2**power)
    power = 0       # 0**1 = 1
    max_power = 9   # 2**9 = 512

    def __init__(self, parent, search_text, text_color=None):
        QThread.__init__(self, parent)
        self.mutex = QMutex()
        self.stopped = None
        self.search_text = search_text
        self.text_color = text_color
        self.pathlist = None
        self.total_matches = None
        self.error_flag = None
        self.rootpath = None
        self.exclude = None
        self.texts = None
        self.text_re = None
        self.completed = None
        self.case_sensitive = True
        self.total_matches = 0
        self.is_file = False
        self.results = {}

        self.num_files = 0
        self.files = []
        self.partial_results = []

    def initialize(self, path, is_file, exclude,
                   texts, text_re, case_sensitive):
        self.rootpath = path
        if exclude:
            self.exclude = re.compile(exclude)
        self.texts = texts
        self.text_re = text_re
        self.is_file = is_file
        self.stopped = False
        self.completed = False
        self.case_sensitive = case_sensitive

    def run(self):
        try:
            self.filenames = []
            if self.is_file:
                self.find_string_in_file(self.rootpath)
            else:
                self.find_files_in_path(self.rootpath)
        except Exception:
            # Important note: we have to handle unexpected exceptions by
            # ourselves because they won't be catched by the main thread
            # (known QThread limitation/bug)
            traceback.print_exc()
            self.error_flag = _("Unexpected error: see internal console")
        self.stop()
        self.sig_finished.emit(self.completed)

    def stop(self):
        with QMutexLocker(self.mutex):
            self.stopped = True

    def find_files_in_path(self, path):
        if self.pathlist is None:
            self.pathlist = []
        self.pathlist.append(path)
        for path, dirs, files in os.walk(path):
            with QMutexLocker(self.mutex):
                if self.stopped:
                    return False
            try:
                for d in dirs[:]:
                    with QMutexLocker(self.mutex):
                        if self.stopped:
                            return False
                    dirname = os.path.join(path, d)
                    if (self.exclude and
                            re.search(self.exclude, dirname + os.sep)):
                        dirs.remove(d)
                    elif d == '.git' or d == '.hg':
                        dirs.remove(d)
                for f in files:
                    with QMutexLocker(self.mutex):
                        if self.stopped:
                            return False
                    filename = os.path.join(path, f)
                    if self.exclude and re.search(self.exclude, filename):
                        continue
                    if is_text_file(filename):
                        self.find_string_in_file(filename)
            except re.error:
                self.error_flag = _("invalid regular expression")
                return False

        # Process any pending results
        if self.partial_results:
            self.process_results()

        return True

    def find_string_in_file(self, fname):
        self.error_flag = False
        self.sig_current_file.emit(fname)
        try:
            for lineno, line in enumerate(open(fname, 'rb')):
                for text, enc in self.texts:
                    with QMutexLocker(self.mutex):
                        if self.stopped:
                            return False
                    line_search = line
                    if not self.case_sensitive:
                        line_search = line_search.lower()
                    if self.text_re:
                        found = re.search(text, line_search)
                        if found is not None:
                            break
                    else:
                        found = line_search.find(text)
                        if found > -1:
                            break
                try:
                    line_dec = line.decode(enc)
                except UnicodeDecodeError:
                    line_dec = line

                if not self.case_sensitive:
                    line = line.lower()

                if self.text_re:
                    for match in re.finditer(text, line):
                        with QMutexLocker(self.mutex):
                            if self.stopped:
                                return False
                        self.total_matches += 1
                        self.partial_results.append((osp.abspath(fname),
                                                     lineno + 1,
                                                     match.start(),
                                                     match.end(),
                                                     line_dec))
                        if len(self.partial_results) > (2**self.power):
                            self.process_results()
                            if self.power < self.max_power:
                                self.power += 1
                else:
                    found = line.find(text)
                    while found > -1:
                        with QMutexLocker(self.mutex):
                            if self.stopped:
                                return False
                        self.total_matches += 1
                        self.partial_results.append((osp.abspath(fname),
                                                     lineno + 1,
                                                     found,
                                                     found + len(text),
                                                     line_dec))
                        if len(self.partial_results) > (2**self.power):
                            self.process_results()
                            if self.power < self.max_power:
                                self.power += 1

                        for text, enc in self.texts:
                            found = line.find(text, found + 1)
                            if found > -1:
                                break

        except IOError as xxx_todo_changeme:
            (_errno, _strerror) = xxx_todo_changeme.args
            self.error_flag = _("permission denied errors were encountered")

        self.completed = True

    def process_results(self):
        """
        Process all matches found inside a file.

        Creates the necessary files and emits signal for the creation of file
        item.

        Creates the necessary data for lines found and emits signal for the
        creation of line items in batch.

        Creates the title based on the last entry of the lines batch.
        """
        items = []
        num_matches = self.total_matches
        for result in self.partial_results:
            filename, lineno, colno, match_end, line = result

            if filename not in self.files:
                self.files.append(filename)
                self.sig_file_match.emit(filename)
                self.num_files += 1

            line = self.truncate_result(line, colno, match_end)
            item = (filename, lineno, colno, line)
            items.append(item)

        # Process title
        title = "'%s' - " % self.search_text
        nb_files = self.num_files
        if nb_files == 0:
            text = _('String not found')
        else:
            text_matches = _('matches in')
            text_files = _('file')
            if nb_files > 1:
                text_files += 's'
            text = "%d %s %d %s" % (num_matches, text_matches,
                                    nb_files, text_files)
        title = title + text

        self.partial_results = []
        self.sig_line_match.emit(items, title)

    def truncate_result(self, line, start, end):
        """
        Shorten text on line to display the match within `max_line_length`.
        """
        ellipsis = u'...'
        max_line_length = 80
        max_num_char_fragment = 40

        html_escape_table = {
            u"&": u"&amp;",
            u'"': u"&quot;",
            u"'": u"&apos;",
            u">": u"&gt;",
            u"<": u"&lt;",
        }

        def html_escape(text):
            """Produce entities within text."""
            return u"".join(html_escape_table.get(c, c) for c in text)

        if PY2:
            line = to_text_string(line, encoding='utf8')
        else:
            line = to_text_string(line)
        left, match, right = line[:start], line[start:end], line[end:]

        if len(line) > max_line_length:
            offset = (len(line) - len(match)) // 2

            left = left.split(u' ')
            num_left_words = len(left)

            if num_left_words == 1:
                left = left[0]
                if len(left) > max_num_char_fragment:
                    left = ellipsis + left[-offset:]
                left = [left]

            right = right.split(u' ')
            num_right_words = len(right)

            if num_right_words == 1:
                right = right[0]
                if len(right) > max_num_char_fragment:
                    right = right[:offset] + ellipsis
                right = [right]

            left = left[-4:]
            right = right[:4]

            if len(left) < num_left_words:
                left = [ellipsis] + left

            if len(right) < num_right_words:
                right = right + [ellipsis]

            left = u' '.join(left)
            right = u' '.join(right)

            if len(left) > max_num_char_fragment:
                left = ellipsis + left[-30:]

            if len(right) > max_num_char_fragment:
                right = right[:30] + ellipsis

        line_match_format = (u'<span style="color:{0}">{{0}}'
                             '<b>{{1}}</b>{{2}}</span>')
        line_match_format = line_match_format.format(self.text_color)

        left = html_escape(left)
        right = html_escape(right)
        match = html_escape(match)
        trunc_line = line_match_format.format(left, match, right)
        return trunc_line

    def get_results(self):
        return self.results, self.pathlist, self.total_matches, self.error_flag


class SearchInComboBox(QComboBox):
    """
    Non editable combo box handling the path locations of the FindOptions
    widget.
    """
    def __init__(self, external_path_history=[], parent=None):
        super(SearchInComboBox, self).__init__(parent)
        self.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Fixed)
        self.setToolTip(_('Search directory'))
        self.setEditable(False)

        self.path = ''
        self.project_path = None
        self.file_path = None
        self.external_path = None

        self.addItem(_("Current working directory"))
        ttip = ("Search in all files and directories present on the current"
                " Spyder path")
        self.setItemData(0, ttip, Qt.ToolTipRole)

        self.addItem(_("Project"))
        ttip = _("Search in all files and directories present on the"
                 " current project path (if opened)")
        self.setItemData(1, ttip, Qt.ToolTipRole)
        self.model().item(1, 0).setEnabled(False)

        self.addItem(_("File").replace('&', ''))
        ttip = _("Search in current opened file")
        self.setItemData(2, ttip, Qt.ToolTipRole)

        self.insertSeparator(3)

        self.addItem(_("Select other directory"))
        ttip = _("Search in other folder present on the file system")
        self.setItemData(4, ttip, Qt.ToolTipRole)

        self.addItem(_("Clear this list"))
        ttip = _("Clear the list of other directories")
        self.setItemData(5, ttip, Qt.ToolTipRole)

        self.insertSeparator(6)

        for path in external_path_history:
            self.add_external_path(path)

        self.currentIndexChanged.connect(self.path_selection_changed)
        self.view().installEventFilter(self)

    def add_external_path(self, path):
        """
        Adds an external path to the combobox if it exists on the file system.
        If the path is already listed in the combobox, it is removed from its
        current position and added back at the end. If the maximum number of
        paths is reached, the oldest external path is removed from the list.
        """
        if not osp.exists(path):
            return
        self.removeItem(self.findText(path))
        self.addItem(path)
        self.setItemData(self.count() - 1, path, Qt.ToolTipRole)
        while self.count() > MAX_PATH_HISTORY + EXTERNAL_PATHS:
            self.removeItem(EXTERNAL_PATHS)

    def get_external_paths(self):
        """Returns a list of the external paths listed in the combobox."""
        return [to_text_string(self.itemText(i))
                for i in range(EXTERNAL_PATHS, self.count())]

    def clear_external_paths(self):
        """Remove all the external paths listed in the combobox."""
        while self.count() > EXTERNAL_PATHS:
            self.removeItem(EXTERNAL_PATHS)

    def get_current_searchpath(self):
        """
        Returns the path corresponding to the currently selected item
        in the combobox.
        """
        idx = self.currentIndex()
        if idx == CWD:
            return self.path
        elif idx == PROJECT:
            return self.project_path
        elif idx == FILE_PATH:
            return self.file_path
        else:
            return self.external_path

    def set_current_searchpath_index(self, index):
        """Set the current index of this combo box."""
        index = min(index, self.count() - 1)
        index = CWD if index in [CLEAR_LIST, SELECT_OTHER] else index
        self.setCurrentIndex(index)

    def is_file_search(self):
        """Returns whether the current search path is a file."""
        if self.currentIndex() == FILE_PATH:
            return True
        else:
            return False

    @Slot()
    def path_selection_changed(self):
        """Handles when the current index of the combobox changes."""
        idx = self.currentIndex()
        if idx == SELECT_OTHER:
            external_path = self.select_directory()
            if len(external_path) > 0:
                self.add_external_path(external_path)
                self.setCurrentIndex(self.count() - 1)
            else:
                self.setCurrentIndex(CWD)
        elif idx == CLEAR_LIST:
            reply = QMessageBox.question(
                    self, _("Clear other directories"),
                    _("Do you want to clear the list of other directories?"),
                    QMessageBox.Yes | QMessageBox.No)
            if reply == QMessageBox.Yes:
                self.clear_external_paths()
            self.setCurrentIndex(CWD)
        elif idx >= EXTERNAL_PATHS:
            self.external_path = to_text_string(self.itemText(idx))

    @Slot()
    def select_directory(self):
        """Select directory"""
        self.__redirect_stdio_emit(False)
        directory = getexistingdirectory(
                self, _("Select directory"), self.path)
        if directory:
            directory = to_unicode_from_fs(osp.abspath(directory))
        self.__redirect_stdio_emit(True)
        return directory

    def set_project_path(self, path):
        """
        Sets the project path and disables the project search in the combobox
        if the value of path is None.
        """
        if path is None:
            self.project_path = None
            self.model().item(PROJECT, 0).setEnabled(False)
            if self.currentIndex() == PROJECT:
                self.setCurrentIndex(CWD)
        else:
            path = osp.abspath(path)
            self.project_path = path
            self.model().item(PROJECT, 0).setEnabled(True)

    def eventFilter(self, widget, event):
        """Used to handle key events on the QListView of the combobox."""
        if event.type() == QEvent.KeyPress and event.key() == Qt.Key_Delete:
            index = self.view().currentIndex().row()
            if index >= EXTERNAL_PATHS:
                # Remove item and update the view.
                self.removeItem(index)
                self.showPopup()
                # Set the view selection so that it doesn't bounce around.
                new_index = min(self.count() - 1, index)
                new_index = 0 if new_index < EXTERNAL_PATHS else new_index
                self.view().setCurrentIndex(self.model().index(new_index, 0))
                self.setCurrentIndex(new_index)
            return True
        return QComboBox.eventFilter(self, widget, event)

    def __redirect_stdio_emit(self, value):
        """
        Searches through the parent tree to see if it is possible to emit the
        redirect_stdio signal.
        This logic allows to test the SearchInComboBox select_directory method
        outside of the FindInFiles plugin.
        """
        parent = self.parent()
        while parent is not None:
            try:
                parent.redirect_stdio.emit(value)
            except AttributeError:
                parent = parent.parent()
            else:
                break


class FindOptions(QWidget):
    """Find widget with options"""
    REGEX_INVALID = "background-color:rgb(255, 80, 80);"
    REGEX_ERROR = _("Regular expression error")

    find = Signal()
    stop = Signal()
    redirect_stdio = Signal(bool)

    def __init__(self, parent, search_text, search_text_regexp,
                 exclude, exclude_idx, exclude_regexp,
                 supported_encodings, more_options,
                 case_sensitive, external_path_history, search_in_index,
                 options_button=None):
        QWidget.__init__(self, parent)
        self._running = False
        if not isinstance(search_text, (list, tuple)):
            search_text = [search_text]
        if not isinstance(exclude, (list, tuple)):
            exclude = [exclude]
        if not isinstance(external_path_history, (list, tuple)):
            external_path_history = [external_path_history]

        self.supported_encodings = supported_encodings

        # Layout 1
        hlayout1 = QHBoxLayout()
        self.search_text = PatternComboBox(self, search_text,
                                           _("Search pattern"))
        self.edit_regexp = create_toolbutton(self,
                                             icon=ima.icon('regex'),
                                             tip=_('Regular expression'))
        self.case_button = create_toolbutton(self,
                                             icon=ima.icon(
                                                     "format_letter_case"),
                                             tip=_("Case Sensitive"))
        self.case_button.setCheckable(True)
        self.case_button.setChecked(case_sensitive)
        self.edit_regexp.setCheckable(True)
        self.edit_regexp.setChecked(search_text_regexp)
        self.more_widgets = ()
        self.more_options = create_toolbutton(
            self,
            toggled=self.toggle_more_options)
        self.more_options.setCheckable(True)
        self.more_options.setChecked(more_options)

        self.ok_button = create_toolbutton(self, text=_("Search"),
                                           icon=ima.icon('find'),
                                           triggered=lambda: self.find.emit(),
                                           tip=_("Start search"),
                                           text_beside_icon=True)
        self.ok_button.clicked.connect(self.update_combos)
        self.stop_button = create_toolbutton(self, text=_("Stop"),
                                             icon=ima.icon('stop'),
                                             triggered=lambda:
                                             self.stop.emit(),
                                             tip=_("Stop search"),
                                             text_beside_icon=True)
        for widget in [self.search_text, self.edit_regexp, self.case_button,
                       self.ok_button, self.stop_button, self.more_options]:
            hlayout1.addWidget(widget)
        if options_button:
            hlayout1.addWidget(options_button)

        # Layout 2
        hlayout2 = QHBoxLayout()
        self.exclude_pattern = PatternComboBox(self, exclude,
                                               _("Exclude pattern"))
        if exclude_idx is not None and exclude_idx >= 0 \
           and exclude_idx < self.exclude_pattern.count():
            self.exclude_pattern.setCurrentIndex(exclude_idx)
        self.exclude_regexp = create_toolbutton(self,
                                                icon=ima.icon('regex'),
                                                tip=_('Regular expression'))
        self.exclude_regexp.setCheckable(True)
        self.exclude_regexp.setChecked(exclude_regexp)
        exclude_label = QLabel(_("Exclude:"))
        exclude_label.setBuddy(self.exclude_pattern)
        for widget in [exclude_label, self.exclude_pattern,
                       self.exclude_regexp]:
            hlayout2.addWidget(widget)

        # Layout 3
        hlayout3 = QHBoxLayout()

        search_on_label = QLabel(_("Search in:"))
        self.path_selection_combo = SearchInComboBox(
                external_path_history, parent)
        self.path_selection_combo.set_current_searchpath_index(
            search_in_index)

        hlayout3.addWidget(search_on_label)
        hlayout3.addWidget(self.path_selection_combo)

        self.search_text.valid.connect(lambda valid: self._check_find())
        self.exclude_pattern.valid.connect(lambda valid: self._check_find())

        vlayout = QVBoxLayout()
        vlayout.setContentsMargins(0, 0, 0, 0)
        vlayout.addLayout(hlayout1)
        vlayout.addLayout(hlayout2)
        vlayout.addLayout(hlayout3)
        self.more_widgets = (hlayout2,)
        self.toggle_more_options(more_options)
        self.setLayout(vlayout)

        self.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Minimum)

        fm = self.ok_button.fontMetrics()
        width = fm.width('Search') * 1.8
        self.ok_button.setMinimumWidth(width)
        self.stop_button.setMinimumWidth(width)
        self.refresh_buttons(start=False)

    def _check_find(self):
        """
        Check if find signal should be emitted.

        This allows the Enter to function as starting and stopping action
        depending on the state.
        """
        if self._running:
            self.stop.emit()
        else:
            self.find.emit()

    def refresh_buttons(self, start=False):
        """Refresh start/stop of buttons."""
        self._running = start
        self.setUpdatesEnabled(False)
        self.ok_button.setVisible(not start)
        self.stop_button.setVisible(start)
        self.setUpdatesEnabled(True)

    @Slot(bool)
    def toggle_more_options(self, state):
        for layout in self.more_widgets:
            for index in range(layout.count()):
                if state and self.isVisible() or not state:
                    layout.itemAt(index).widget().setVisible(state)
        if state:
            icon = ima.icon('options_less')
            tip = _('Hide advanced options')
        else:
            icon = ima.icon('options_more')
            tip = _('Show advanced options')
        self.more_options.setIcon(icon)
        self.more_options.setToolTip(tip)

    def update_combos(self):
        self.search_text.lineEdit().returnPressed.emit()
        self.exclude_pattern.lineEdit().returnPressed.emit()

    def set_search_text(self, text):
        if text:
            self.search_text.add_text(text)
            self.search_text.lineEdit().selectAll()
        self.search_text.setFocus()

    def get_options(self, to_save=False):
        """Get options"""
        text_re = self.edit_regexp.isChecked()
        exclude_re = self.exclude_regexp.isChecked()
        case_sensitive = self.case_button.isChecked()

        # Return current options for them to be saved when closing
        # Spyder.
        if to_save:
            search_text = [to_text_string(self.search_text.itemText(index))
                           for index in range(self.search_text.count())]
            exclude = [to_text_string(self.exclude_pattern.itemText(index))
                       for index in range(self.exclude_pattern.count())]
            exclude_idx = self.exclude_pattern.currentIndex()
            path_history = self.path_selection_combo.get_external_paths()
            more_options = self.more_options.isChecked()
            search_in_index = self.path_selection_combo.currentIndex()
            return (search_text, text_re,
                    exclude, exclude_idx,
                    exclude_re, more_options,
                    case_sensitive, path_history,
                    search_in_index)

        # Clear fields
        self.search_text.lineEdit().setStyleSheet("")
        self.exclude_pattern.lineEdit().setStyleSheet("")
        self.search_text.setToolTip("")
        self.exclude_pattern.setToolTip("")

        utext = to_text_string(self.search_text.currentText())
        if not utext:
            return

        try:
            texts = [(utext.encode('utf-8'), 'utf-8')]
        except UnicodeEncodeError:
            texts = []
            for enc in self.supported_encodings:
                try:
                    texts.append((utext.encode(enc), enc))
                except UnicodeDecodeError:
                    pass

        exclude = to_text_string(self.exclude_pattern.currentText())

        if not case_sensitive:
            texts = [(text[0].lower(), text[1]) for text in texts]

        file_search = self.path_selection_combo.is_file_search()
        path = self.path_selection_combo.get_current_searchpath()

        if not exclude_re:
            items = [fnmatch.translate(item.strip())
                     for item in exclude.split(",")
                     if item.strip() != '']
            exclude = '|'.join(items)

        # Validate exclude regular expression
        if exclude:
            error_msg = regexp_error_msg(exclude)
            if error_msg:
                exclude_edit = self.exclude_pattern.lineEdit()
                exclude_edit.setStyleSheet(self.REGEX_INVALID)
                tooltip = self.REGEX_ERROR + u': ' + to_text_string(error_msg)
                self.exclude_pattern.setToolTip(tooltip)
                return None
            else:
                exclude = re.compile(exclude)

        # Validate text regular expression
        if text_re:
            error_msg = regexp_error_msg(texts[0][0])
            if error_msg:
                self.search_text.lineEdit().setStyleSheet(self.REGEX_INVALID)
                tooltip = self.REGEX_ERROR + u': ' + to_text_string(error_msg)
                self.search_text.setToolTip(tooltip)
                return None
            else:
                texts = [(re.compile(x[0]), x[1]) for x in texts]

        return (path, file_search, exclude, texts, text_re, case_sensitive)

    @property
    def path(self):
        return self.path_selection_combo.path

    def set_directory(self, directory):
        self.path_selection_combo.path = osp.abspath(directory)

    @property
    def project_path(self):
        return self.path_selection_combo.project_path

    def set_project_path(self, path):
        self.path_selection_combo.set_project_path(path)

    def disable_project_search(self):
        self.path_selection_combo.set_project_path(None)

    @property
    def file_path(self):
        return self.path_selection_combo.file_path

    def set_file_path(self, path):
        self.path_selection_combo.file_path = path

    def keyPressEvent(self, event):
        """Reimplemented to handle key events"""
        ctrl = event.modifiers() & Qt.ControlModifier
        shift = event.modifiers() & Qt.ShiftModifier
        if event.key() in (Qt.Key_Enter, Qt.Key_Return):
            self.find.emit()
        elif event.key() == Qt.Key_F and ctrl and shift:
            # Toggle find widgets
            self.parent().toggle_visibility.emit(not self.isVisible())
        else:
            QWidget.keyPressEvent(self, event)


class LineMatchItem(QTreeWidgetItem):

    def __init__(self, parent, lineno, colno, match, font,
                 text_color=None):
        self.lineno = lineno
        self.colno = colno
        self.match = match
        self.text_color = text_color
        self.font = font
        QTreeWidgetItem.__init__(self, parent, [self.__repr__()],
                                 QTreeWidgetItem.Type)

    def __repr__(self):
        match = to_text_string(self.match).rstrip()
        _str = to_text_string("<!-- LineMatchItem -->"
                              "<p style=\"color:'{4}';\"><b>{1}</b> ({2}): "
                              "<span style='font-family:{0};"
                              "font-size:75%;'>{3}</span></p>")
        return _str.format(self.font.family(), self.lineno, self.colno, match,
                           self.text_color)

    def __unicode__(self):
        return self.__repr__()

    def __str__(self):
        return self.__repr__()

    def __lt__(self, x):
        return self.lineno < x.lineno

    def __ge__(self, x):
        return self.lineno >= x.lineno


class FileMatchItem(QTreeWidgetItem):

    def __init__(self, parent, filename, sorting, text_color=None):

        self.sorting = sorting
        self.filename = osp.basename(filename)

        title_format = to_text_string('<!-- FileMatchItem -->'
                                      '<b style="color:{2}">{0}</b>'
                                      '&nbsp;&nbsp;&nbsp;'
                                      '<small style="color:{2}"><em>{1}</em>'
                                      '</small>')
        title = (title_format.format(osp.basename(filename),
                                     osp.dirname(filename),
                                     text_color))
        QTreeWidgetItem.__init__(self, parent, [title], QTreeWidgetItem.Type)

        self.setToolTip(0, filename)

    def __lt__(self, x):
        if self.sorting['status'] == ON:
            return self.filename < x.filename
        else:
            return False

    def __ge__(self, x):
        if self.sorting['status'] == ON:
            return self.filename >= x.filename
        else:
            return False


class ItemDelegate(QStyledItemDelegate):

    def __init__(self, parent):
        QStyledItemDelegate.__init__(self, parent)
        self._margin = None

    def paint(self, painter, option, index):
        options = QStyleOptionViewItem(option)
        self.initStyleOption(options, index)

        style = (QApplication.style() if options.widget is None
                 else options.widget.style())

        doc = QTextDocument()
        text = options.text
        doc.setHtml(text)
        doc.setDocumentMargin(0)

        # This needs to be an empty string to avoid the overlapping the
        # normal text of the QTreeWidgetItem
        options.text = ""
        style.drawControl(QStyle.CE_ItemViewItem, options, painter)

        ctx = QAbstractTextDocumentLayout.PaintContext()

        textRect = style.subElementRect(QStyle.SE_ItemViewItemText,
                                        options, None)
        painter.save()

        painter.translate(textRect.topLeft())
        painter.setClipRect(textRect.translated(-textRect.topLeft()))
        doc.documentLayout().draw(painter, ctx)
        painter.restore()

    def sizeHint(self, option, index):
        options = QStyleOptionViewItem(option)
        self.initStyleOption(options, index)
        doc = QTextDocument()
        doc.setHtml(options.text)
        doc.setTextWidth(options.rect.width())
        size = QSize(int(doc.idealWidth()), int(doc.size().height()))
        return size


class ResultsBrowser(OneColumnTree):
    sig_edit_goto = Signal(str, int, str)
    sig_max_results_reached = Signal()

    def __init__(self, parent, text_color=None, max_results=1000):
        OneColumnTree.__init__(self, parent)
        self.search_text = None
        self.results = None
        self.max_results = max_results
        self.total_matches = None
        self.error_flag = None
        self.completed = None
        self.sorting = {}
        self.font = get_font()
        self.data = None
        self.files = None
        self.root_items = None
        self.text_color = text_color

        # Setup
        self.set_title('')
        self.set_sorting(OFF)
        self.setSortingEnabled(False)
        self.setItemDelegate(ItemDelegate(self))
        self.setUniformRowHeights(True)  # Needed for performance
        self.sortByColumn(0, Qt.AscendingOrder)

        # Signals
        self.header().sectionClicked.connect(self.sort_section)

    def activated(self, item):
        """Double-click event."""
        itemdata = self.data.get(id(self.currentItem()))
        if itemdata is not None:
            filename, lineno, colno = itemdata
            self.sig_edit_goto.emit(filename, lineno, self.search_text)

    def set_sorting(self, flag):
        """Enable result sorting after search is complete."""
        self.sorting['status'] = flag
        self.header().setSectionsClickable(flag == ON)

    @Slot(int)
    def sort_section(self, idx):
        self.setSortingEnabled(True)

    def clicked(self, item):
        """Click event."""
        self.activated(item)

    def clear_title(self, search_text):
        self.font = get_font()
        self.clear()
        self.setSortingEnabled(False)
        self.num_files = 0
        self.data = {}
        self.files = {}
        self.set_sorting(OFF)
        self.search_text = search_text
        title = "'%s' - " % search_text
        text = _('String not found')
        self.set_title(title + text)

    @Slot(object)
    def append_file_result(self, filename):
        """Real-time update of file items."""
        if len(self.data) < self.max_results:
            self.files[filename] = FileMatchItem(
                self, filename, self.sorting, self.text_color)
            self.files[filename].setExpanded(True)
            self.num_files += 1

    @Slot(object, object)
    def append_result(self, items, title):
        """Real-time update of line items."""
        if len(self.data) >= self.max_results:
            self.set_title(_('Maximum number of results reached! Try '
                             'narrowing the search.'))
            self.sig_max_results_reached.emit()
            return

        available = self.max_results - len(self.data)
        if available < len(items):
            items = items[:available]

        self.setUpdatesEnabled(False)
        self.set_title(title)
        for item in items:
            filename, lineno, colno, line = item
            file_item = self.files.get(filename, None)
            if file_item:
                item = LineMatchItem(file_item, lineno, colno, line,
                                     self.font, self.text_color)
                self.data[id(item)] = (filename, lineno, colno)
        self.setUpdatesEnabled(True)

    def set_max_results(self, value):
        """Set maximum amount of results to add."""
        self.max_results = value


class FileProgressBar(QWidget):
    """Simple progress spinner with a label."""

    def __init__(self, parent):
        QWidget.__init__(self, parent)

        self.status_text = QLabel(self)
        self.spinner = create_waitspinner(parent=self)
        layout = QHBoxLayout()
        layout.addWidget(self.spinner)
        layout.addWidget(self.status_text)
        self.setLayout(layout)

    @Slot(str)
    def set_label_path(self, path, folder=False):
        text = truncate_path(path)
        if not folder:
            status_str = _(u' Scanning: {0}').format(text)
        else:
            status_str = _(u' Searching for files in folder:'
                           ' {0}').format(text)
        self.status_text.setText(status_str)

    def reset(self):
        self.status_text.setText(_("  Searching for files..."))

    def showEvent(self, event):
        """Override show event to start waiting spinner."""
        QWidget.showEvent(self, event)
        self.spinner.start()

    def hideEvent(self, event):
        """Override hide event to stop waiting spinner."""
        QWidget.hideEvent(self, event)
        self.spinner.stop()


class FindInFilesWidget(QWidget):
    """
    Find in files widget
    """
    sig_finished = Signal()
    sig_max_results_reached = Signal()

    def __init__(self,
                 parent,
                 search_text="",
                 search_text_regexp=False,
                 exclude=EXCLUDE_PATTERNS[0],
                 exclude_idx=None,
                 exclude_regexp=False,
                 supported_encodings=("utf-8", "iso-8859-1", "cp1252"),
                 more_options=False,
                 case_sensitive=False,
                 external_path_history=[],
                 search_in_index=0,
                 options_button=None,
                 text_color=None,
                 max_results=1000):
        QWidget.__init__(self, parent)

        self.search_thread = None
        self.text_color = text_color

        # Widgets
        self.status_bar = FileProgressBar(self)
        self.find_options = FindOptions(
            self,
            search_text,
            search_text_regexp,
            exclude,
            exclude_idx,
            exclude_regexp,
            supported_encodings,
            more_options,
            case_sensitive,
            external_path_history,
            search_in_index,
            options_button=options_button)

        self.result_browser = ResultsBrowser(self, text_color=text_color,
                                             max_results=max_results)
        # Widget setup
        self.setWindowTitle(_('Find in files'))
        self.status_bar.hide()

        # Layout
        hlayout = QHBoxLayout()
        hlayout.addWidget(self.result_browser)

        layout = QVBoxLayout()
        left, _x, right, bottom = layout.getContentsMargins()
        layout.setContentsMargins(left, 0, right, bottom)
        layout.addWidget(self.find_options)
        layout.addLayout(hlayout)
        layout.addWidget(self.status_bar)
        self.setLayout(layout)

        # Signals
        self.find_options.find.connect(self.find)
        self.find_options.stop.connect(self.stop_and_reset_thread)
        self.result_browser.sig_max_results_reached.connect(
            self.stop_and_reset_thread)
        self.result_browser.sig_max_results_reached.connect(
            self.sig_max_results_reached)

    def set_search_text(self, text):
        """Set search pattern"""
        self.find_options.set_search_text(text)

    def find(self):
        """Call the find function"""
        search_text = self.find_options.search_text.currentText()
        options = self.find_options.get_options()
        if options is None:
            return
        self.stop_and_reset_thread(ignore_results=True)
        self.search_thread = SearchThread(self, search_text, self.text_color)
        self.search_thread.sig_finished.connect(self.search_complete)
        self.search_thread.sig_current_file.connect(
            lambda x: self.status_bar.set_label_path(x, folder=False)
        )
        self.search_thread.sig_current_folder.connect(
            lambda x: self.status_bar.set_label_path(x, folder=True)
        )
        self.search_thread.sig_file_match.connect(
            self.result_browser.append_file_result
        )
        self.search_thread.sig_line_match.connect(
            self.result_browser.append_result
        )
        self.search_thread.sig_out_print.connect(
            lambda x: sys.stdout.write(str(x) + "\n")
        )
        self.status_bar.reset()
        self.result_browser.clear_title(search_text)
        self.search_thread.initialize(*options)

        self.find_options.refresh_buttons(start=True)
        self.search_thread.start()

        self.status_bar.show()

    def stop_and_reset_thread(self, ignore_results=False):
        """Stop current search thread and clean-up"""
        self.find_options.refresh_buttons(start=False)
        if self.search_thread is not None:
            if self.search_thread.isRunning():
                if ignore_results:
                    self.search_thread.sig_finished.disconnect(
                        self.search_complete)
                self.search_thread.stop()
                self.search_thread.wait()
            self.search_thread.setParent(None)
            self.search_thread = None

    def closing_widget(self):
        """Perform actions before widget is closed"""
        self.stop_and_reset_thread(ignore_results=True)

    def search_complete(self, completed):
        """Current search thread has finished"""
        self.result_browser.set_sorting(ON)
        self.find_options.ok_button.setEnabled(True)
        self.status_bar.hide()
        self.result_browser.expandAll()
        if self.search_thread is None:
            return
        self.sig_finished.emit()
        found = self.search_thread.get_results()
        self.stop_and_reset_thread()
        if found is not None:
            results, pathlist, nb, error_flag = found
            self.result_browser.show()

    def set_max_results(self, value):
        """Set maximum amount of results to add to result browser."""
        self.result_browser.set_max_results(value)


def test():
    """Run Find in Files widget test"""
    from spyder.utils.qthelpers import qapplication
    from os.path import dirname
    app = qapplication()
    widget = FindInFilesWidget(None)
    widget.resize(640, 480)
    widget.show()
    external_paths = [
            dirname(__file__),
            dirname(dirname(__file__)),
            dirname(dirname(dirname(__file__))),
            dirname(dirname(dirname(dirname(__file__))))
            ]
    for path in external_paths:
        widget.find_options.path_selection_combo.add_external_path(path)
    sys.exit(app.exec_())


if __name__ == '__main__':
    test()
